CN113973611A - Cultivation device capable of uniformly irradiating thesium chinense - Google Patents

Abstract

The invention discloses a cultivation device capable of uniformly irradiating thesium chinense, relates to the field related to thesium chinense seedling cultivation, and aims to solve the problem that thesium chinense cannot be uniformly irradiated on the premise of ensuring illumination in the prior art. One side of the lower end of the irradiation lamp is provided with a seedling growing assembly, the irradiation lamp is arranged to be spherical, the seedling growing assembly comprises a planting assembly, one side of the planting assembly is provided with a spraying assembly, the lower end of the planting assembly is provided with a cover plate, and the cover plate is fixedly connected with the spraying assembly.

Description

Cultivation device capable of uniformly irradiating thesium chinense

Technical Field

The invention relates to the field of thesium chinense seedling culture, in particular to a culture device capable of uniformly irradiating thesium chinense.

Background

Thesium Chinese is a plant of the genus Thesium of the family Santalaceae.

When the existing thesium chinense is cultivated, the thesium chinense is usually arranged in a greenhouse, sunlight is simulated through a tubular irradiation lamp to irradiate the thesium chinense, but in the irradiation process, all thesium chinense cannot be uniformly irradiated, and therefore the production and seedling culture of the thesium chinense are easily influenced.

Disclosure of Invention

The invention aims to provide a cultivation device capable of uniformly irradiating thesium chinense so as to solve the problem that thesium chinense cannot be uniformly irradiated on the premise of ensuring illumination in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a breeding device that can evenly shine thesium, includes the lamp, one side of lamp lower extreme is provided with the subassembly of growing seedlings, the lamp sets up to globular, the subassembly of growing seedlings is including planting the subassembly, one side of planting the subassembly is provided with spray set, the lower extreme of planting the subassembly is provided with the apron, the lower extreme of apron is provided with the side cap, the lower extreme of side cap is provided with the bottom plate, the lower extreme of bottom plate is provided with the axle sleeve, the lower extreme of axle sleeve is provided with the backup pad, the lower extreme of backup pad is provided with driving motor.

Preferably, one side of the lower end of the supporting plate is provided with an equipment supporting rod, the lower end of the equipment supporting rod is provided with an anti-skidding and anti-tilting pad, and the upper end of the driving motor is provided with a driving rotating shaft.

Preferably, the rear end of one side of the driving rotating shaft is provided with a fixed rod, one side of the fixed rod is provided with a lifting pump, a lifting pipe is arranged on the lifting pump, and one side of the lifting pump is provided with a water feeding pipe.

Preferably, be provided with the water purifier on the flow pipe, water purifier and bottom plate fixed connection, the upper end of water purifier is provided with the drain pipe, the upper end of drain pipe is provided with the water tank that falls, the water tank that falls welds through argon arc with the side cap and is connected, the water tank that falls welds through argon arc with the drain pipe and is connected, the inside of the water tank that falls is provided with the ponding groove, the ponding groove sets up to "U" form, the degree of depth of ponding groove sets up to four fifths of the case thickness that falls into water.

Preferably, the upper end of the irradiation lamp is provided with a connecting rod, and the upper end of the connecting rod is provided with a mounting plate.

Preferably, the upper end of the spraying assembly is provided with a water spraying pipe, and the water spraying pipe is provided with water spraying discharge.

Preferably, the planting assembly comprises a plurality of feeding blocks, the plurality of feeding blocks are arranged in a ladder-shaped manner, the width of the plurality of feeding blocks is gradually reduced from bottom to top, and the width of the feeding block at the upper end is half of that of the feeding block at the lower end.

Preferably, the upper end of the feeding block is provided with a groove plate, and a groove hole is formed in the groove plate.

Compared with the prior art, the invention has the beneficial effects that:

1. the user can greatly improve the illuminated range of the thesium chinense through the spherical illuminating lamp, and drive the bottom plate to synchronously rotate through the rotating shaft, and the rotation of the bottom plate can drive the whole planting assembly to rotate, so that the seedling raising effect of the whole seedling raising device is further improved through the rotating planting assembly;

2. a user can collect the irrigation water flowing down from the planting assembly through the water dropping tank, the irrigation water dropping into the water accumulating tank can enter the water purifier under the action of the water discharging pipe and is purified through the water purifier, the purified irrigation water can enter the lifting pump under the action of the water feeding pipe and is sent into the spraying assembly again through the lifting pump and the lifting pipe, and the irrigation water is recycled;

3. according to the invention, through the arrangement of the feeding blocks, the groove plates and the slotted holes, a user can improve the absorption capacity of the thesium when growing seedlings through the feeding blocks arranged in a ladder shape, and meanwhile, through the groove plates in a 'well' shape, the user can conveniently plant the thesium in a grid mode, and through the slotted holes in a rectangular groove shape, the user can also conveniently grow a plurality of thesium in a separated mode when planting the thesium to a great extent.

Drawings

FIG. 1 is a schematic view of a cultivation apparatus for uniformly irradiating Thesium chinense of the present invention;

FIG. 2 is a schematic bottom view of the cultivation apparatus for uniform irradiation of Thesium chinense of the present invention;

FIG. 3 is an internal view of the side cover of the present invention;

FIG. 4 is a schematic top view of the base plate of the present invention;

fig. 5 is a schematic structural view of the planting assembly of the present invention.

In the figure: 1. a base plate; 2. a shaft sleeve; 3. a support plate; 4. a drive motor; 5. a device support rod; 6. an anti-skid and anti-tilt pad; 7. driving the rotating shaft; 8. a side cover; 9. fixing the rod; 10. a lift pump; 11. a riser tube; 12. a water supply pipe; 13. a water purifier; 14. a drain pipe; 15. a water tank falls; 16. a water accumulation tank; 17. a spray assembly; 18. a water spray pipe; 19. water spraying and draining; 20. a planting assembly; 21. feeding a material block; 22. a groove plate; 23. a slot; 24. illuminating a lamp; 25. a connecting rod; 26. mounting a plate; 27. a seedling raising component; 28. and (7) a cover plate.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a cultivation device capable of uniformly irradiating thesium chinense, which comprises a lamp 24, wherein a seedling growing component 27 is arranged on one side of the lower end of the lamp 24, the seedling growing treatment of thesium chinense can be realized through the arrangement of the seedling growing component 27, the lamp 24 is arranged in a spherical shape, the planted thesium chinense can be irradiated through the lamp 24, meanwhile, the irradiation efficiency of the planted thesium chinense can be greatly improved through the spherical lamp 24, the seedling growing component 27 comprises a planting component 20, the planting treatment of thesium chinense can be realized through the arrangement of the planting component 20, a spraying component 17 is arranged on one side of the planting component 20, the spraying treatment of thesium chinense in the cultivation process can be realized through the arrangement of the spraying component 17, a cover plate 28 is arranged at the lower end of the planting component 20, the top protection treatment can be realized through the arrangement of the cover plate 28, the lower end of the cover plate 28 is provided with a side cover 8, irrigation water after the operation of irrigating the thesium chinense can be recycled, purified and recycled through equipment inside the side cover 8, so that the use cost of a user when using the device can be reduced to a certain extent, the side cover 8 is in a rectangular ring shape, the side cover 8 is connected with the cover plate 28 through argon arc welding, the lower end of the side cover 8 is provided with a bottom plate 1, the angle adjustment of the whole planting assembly 20 can be realized through the angle adjustment of the bottom plate 1, the lower end of the bottom plate 1 is provided with a shaft sleeve 2, the positioning of a driving rotating shaft 7 can be realized through the arrangement of the shaft sleeve 2, so that the phenomenon of deflection of the driving rotating shaft 7 is prevented, the lower end of the shaft sleeve 2 is provided with a support plate 3, the fixing of the driving motor 4 can be realized through the arrangement of the support plate 3, the lower end of the support plate 3 is provided with the driving motor 4, can realize the high-speed rotation to drive pivot 7 through driving motor 4's setting, the user can drive through driving motor 4 and rotate drive pivot 7, and high-speed pivoted drive pivot 7 then drives bottom plate 1 and rotates in step, and bottom plate 1's rotation can drive whole planting subassembly 20 and rotate to further improve the effect of growing seedlings of whole device of growing seedlings through pivoted planting subassembly 20.

Further, one side of 3 lower extremes of backup pad is provided with equipment brace vaulting pole 5, can realize the support processing to whole breeding device through a plurality of equipment brace vaulting poles 5 that set up, the lower extreme of equipment brace vaulting pole 5 is provided with antiskid anti-tilt pad 6, guarantee through a plurality of antiskid anti-tilt pads 6 that set up that equipment brace vaulting pole 5 is when contacting each other with ground, can produce great friction, thereby prevent that the breeding device from producing the phenomenon of turning on one's side in the in-process that uses, driving motor 4's upper end is provided with drive pivot 7, can realize the synchronous rotation to bottom plate 1 through high-speed pivoted drive pivot 7, the user can mutually support with antiskid anti-tilt pad 6 through equipment brace vaulting pole 5, come whole breeding device antiskid fixed processing.

Further, the rear end of one side of the driving rotating shaft 7 is provided with a fixing rod 9, the fixing rod 9 is set to be in a round rod shape, the fixing rod 9 is connected with the bottom plate 1 through manual arc welding, positioning treatment on the bottom plate 1 can be realized through the plurality of fixing rods 9 which are arranged, one side of the fixing rod 9 is provided with a lifting pump 10, the liquid repurified from the inside of the water purifier 13 can be sent into the inside of the water spray pipe 18 again through the setting of the lifting pump 10, a lifting pipe 11 is arranged on the lifting pump 10, reflux water can enter the inside of the water spray pipe 18 smoothly through the setting of the lifting pipe 11, the lifting pipe 11 is connected with the spray assembly 17 through argon arc welding, one side of the lifting pump 10 is provided with a water supply pipe 12, the communication between the lifting pump 10 and the water purifier 13 can be realized through the setting of the water supply pipe 12, and the water supply pipe 12 is fixedly connected with the lifting pump 10.

Furthermore, a water purifier 13 is arranged on the water supply pipe 12, sewage inside the water collecting tank 16 can be purified through the arrangement of the water purifier 13, so that the sewage can be reused, a drain pipe 14 is arranged at the upper end of the water purifier 13, the arrangement of the drain pipe 14 can realize the circulation of the sewage between the water collecting tank 16 and the water purifier 13, a water dropping tank 15 is arranged at the upper end of the drain pipe 14, the water dropping tank 15 is connected with the drain pipe 14 through argon arc welding, the accumulated water can be stored through the arrangement of the water dropping tank 15, the water collecting tank 16 is arranged inside the water dropping tank 15, the irrigation sewage flowing out in the spraying process can be uniformly collected through the water collecting tank 16 arranged inside the water dropping tank 15, the depth of the water collecting tank 16 is set to be four fifths of the thickness of the water dropping tank 15, the water dropping tank 15 and the cover plate 28 are set to be attached, the water dropping tank 15 and the cover plate 28 are connected by argon arc welding.

Further, the upper end of the irradiation lamp 24 is provided with a connecting rod 25, the irradiation lamp 24 can be connected with a mounting plate 26 through the arrangement of the connecting rod 25, the connecting rod 25 is arranged to be in a round rod shape, the connecting rod 25 is fixedly connected with the irradiation lamp 24, the mounting plate 26 is arranged at the upper end of the connecting rod 25, the mounting plate 26 is arranged to be in a round plate shape, and the mounting connection of the whole irradiation mechanism can be realized through the mounting plate 26 which is in the round plate shape.

Furthermore, the upper end of the spraying component 17 is provided with a water spraying pipe 18, the irrigation water can be conveyed to the inside of the water spraying row 19 through the plurality of water spraying pipes 18, the water spraying row 19 is arranged on the water spraying pipe 18, the irrigation spraying treatment of the thesium chinense can be realized through the water spraying row 19, when spraying is needed, the spraying treatment of the thesium chinense can be realized through the mutual cooperation of the spraying component 17 and the water spraying row 19, after the spraying is finished, the irrigation water flowing down from the planting component 20 is collected through the water dropping tank 15, the irrigation water dropping into the water accumulating tank 16 can enter the water purifier 13 under the action of the water draining pipe 14 and is purified through the water purifier 13, the irrigation water after the purification can enter the inside of the lifting pump 10 under the action of the water conveying pipe 12 and is sent into the inside of the spraying component 17 again through the lifting pump 10 and the lifting pipe 11, so as to realize the recycling of cast-in-situ irrigation.

Further, planting subassembly 20 includes material loading piece 21, and material loading piece 21 is provided with a plurality ofly, and a plurality of material loading pieces 21 set up to the echelonment and arrange, and the width of a plurality of material loading pieces 21 diminishes from supreme down gradually, and the width of material loading piece 21 sets up to the half of lower extreme material loading piece 21 width on the upper end, through material loading piece 21 that the echelonment was arranged, through a plurality of material loading pieces 21 that are the echelonment and arrange, improvement whole planting subassembly that can be by a wide margin is receiving the watering water utilization ratio when watering.

Further, the upper end of the feeding block 21 is provided with a groove plate 22, the number of the groove plate 22 and the number of the feeding block 21 are set to be consistent, the groove plate 22 is set to be in a 'well' shape, the groove plate 22 is connected with the feeding block 21 in a sticking manner, the size of the groove plate 22 and the size of the corresponding feeding block 21 are set to be consistent, a groove hole 23 is formed in the groove plate 22, the absorption capacity of the thesium when the thesium is used for growing seedlings is improved through the feeding block 21 arranged in a ladder shape, meanwhile, the thesium is conveniently planted in a grid manner by a user through the groove plate 22 in the 'well' shape, and the thesium can be planted in a separation manner through the groove hole 23 in the shape of a rectangular groove by the user who can also greatly improve the survival rate of the thesium, so that the survival rate of the thesium can be improved to a certain degree.

The working principle is as follows: the user can plant the thesium chinense through the slotted hole 23 on the slotted plate 22, after planting, the irradiated range of the thesium chinense can be greatly improved through the spherical irradiation lamp 24, meanwhile, the driving rotating shaft 7 is driven to rotate through the driving motor 4, the bottom plate 1 is driven to synchronously rotate through the rotating driving rotating shaft 7, the whole planting assembly 20 can be driven to rotate by the rotation of the bottom plate 1, the seedling culture effect of the whole seedling culture device can be further improved through the rotating planting assembly 20, when spraying is needed, the spraying treatment of the thesium chinense can be realized through the mutual cooperation of the spraying assembly 17 and the water spray row 19, after spraying is finished, the watering water flowing down from the planting assembly 20 can be collected through the water dropping tank 15, and the watering water dropping down in the water accumulating tank 16 can enter the inside of the water purifier 13 under the action of the water discharge pipe 14, the irrigation water after purification can enter the interior of the lift pump 10 under the action of the water supply pipe 12 and is sent into the interior of the spraying component 17 again through the lift pump 10 and the lift pipe 11 so as to realize the recycling of the irrigation water, and in the planting process of the thesium chinense, the absorption capacity of the thesium chinense to the flowing water during seedling raising can be improved through the feeding block 21 which is arranged in a ladder shape, meanwhile, the thesium chinense can pass through the groove plate 22 in a well shape, and when the thesium chinense is planted through the groove hole 23 in a rectangular groove shape, a plurality of thesium chinense can be separated for seedling raising to the convenience of a user to a great extent.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms.

Claims (8)

1. A cultivation device capable of uniformly irradiating thesium chinense, which comprises an irradiation lamp (24), and is characterized in that: one side of lamp (24) lower extreme is provided with subassembly (27) of growing seedlings, subassembly (27) of growing seedlings is including planting subassembly (20), one side of planting subassembly (20) is provided with spray set (17), the lower extreme of planting subassembly (20) is provided with apron (28), apron (28) and spray set (17) fixed connection, the lower extreme of apron (28) is provided with side cap (8), side cap (8) and apron (28) are connected through argon arc welding, the lower extreme of side cap (8) is provided with bottom plate (1), the lower extreme of bottom plate (1) is provided with axle sleeve (2), the lower extreme of axle sleeve (2) is provided with backup pad (3) the lower extreme of backup pad (3) is provided with driving motor (4).

2. A culture device for uniform illumination of thesium chinense as claimed in claim 1, wherein: one side of the lower end of the supporting plate (3) is provided with an equipment supporting rod (5), the lower end of the equipment supporting rod (5) is provided with an anti-skidding and anti-tilting pad (6), and the upper end of the driving motor (4) is provided with a driving rotating shaft (7).

3. A cultivation device for uniform irradiation of thesium chinense as claimed in claim 2, wherein: the rear end of drive pivot (7) one side is provided with dead lever (9), one side of dead lever (9) is provided with elevator pump (10), be provided with riser (11) on elevator pump (10), riser (11) are welded through argon arc with spray assembly (17) and are connected, one side of elevator pump (10) is provided with delivery pipe (12).

4. A cultivation device for uniform irradiation of thesium chinense as claimed in claim 3, wherein: be provided with water purifier (13) on flow pipe (12), the upper end of water purifier (13) is provided with drain pipe (14), the upper end of drain pipe (14) is provided with water tank (15) that falls, water tank (15) that falls is welded through argon arc with side cap (8) and is connected, water tank (15) that falls is welded through argon arc with drain pipe (14) and is connected, the inside of water tank (15) that falls is provided with ponding groove (16), the degree of depth of ponding groove (16) sets up to four fifths of water tank (15) thickness that falls.

5. A culture device for uniform illumination of thesium chinense as claimed in claim 1, wherein: the upper end of the irradiation lamp (24) is provided with a connecting rod (25), and the upper end of the connecting rod (25) is provided with a mounting plate (26).

6. A culture device for uniform illumination of thesium chinense as claimed in claim 1, wherein: the upper end of the spraying component (17) is provided with a water spraying pipe (18), and the water spraying pipe (18) is provided with water spraying discharge (19).

7. A culture device for uniform illumination of thesium chinense as claimed in claim 1, wherein: the planting assembly (20) comprises a plurality of feeding blocks (21), the plurality of feeding blocks (21) are arranged in a ladder-shaped mode, the width of the plurality of feeding blocks (21) is gradually reduced from bottom to top, and the width of the upper end of each feeding block (21) is half of the width of the lower end feeding block (21).

8. An apparatus as claimed in claim 7, wherein the apparatus comprises: the upper end of material loading piece (21) is provided with frid (22), frid (22) set up to "well" form, frid (22) are pasted with material loading piece (21) and are connected, the size of frid (22) sets up to the unanimity rather than the size that corresponds material loading piece (21), the inside of frid (22) is provided with slotted hole (23).

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